Chemical dispensing system and method

1. A method for dispensing a liquid onto a wafer having a geometric center and a peripheral edge, the method comprising: placing the wafer on a wafer-receiving surface, the wafer-receiving surface being rotatable about an axis and having a rotational center defined by the axis, whereby the wafer's geometric center is aligned with the rotational center of the wafer-receiving surface; dispensing the liquid onto the wafer using a scanning dispensing nozzle positioned over the wafer while the wafer-receiving surface and the wafer are rotating about the axis and the dispensing nozzle is moving from the rotational center to the peripheral edge of the wafer; and controlling the dispensing liquid's dispensing temperature as a function of the dispensing nozzle's radial position between the rotational center and the peripheral edge of the wafer, while the liquid is being dispensed.

2. The method of claim 1 , wherein controlling the dispensing liquid's dispensing temperature comprises heating the liquid using a nozzle heater provided about the nozzle to a temperature as a function of the dispensing nozzle's radial position between the rotational center and the peripheral edge of the wafer.

3. A method for initializing an apparatus for dispensing a liquid etchant onto a wafer, the apparatus comprising a wafer-receiving surface rotatable about an axis, the wafer-receiving surface having a rotational center defined by the axis and configured for having the wafer mounted thereon, the wafer having a rotational center and a peripheral edge and whereby the rotational center aligns with the rotational center of the wafer-receiving surface when mounted on the wafer-receiving surface; a dispensing nozzle positioned over the wafer-receiving surface, the dispensing nozzle being configured to move between the rotational center and the peripheral edge of the wafer; a nozzle heater provided on the dispensing nozzle for heating the liquid being dispensed to a dispensing temperature; a main heater for preheating the liquid before the liquid reaches the dispensing nozzle; and a controller configured for controlling the heater and the scanning dispensing nozzle's movement, the method comprising: (a) collecting a baseline radial etching rate profile by etching a first wafer sample by dispensing the liquid etchant onto the first wafer sample without turning the heater on, wherein the liquid etchant is at a baseline temperature; (b) generating an etching rate vs. temperature profile of the liquid etchant; (c) identifying one or more lower etching rate zones along the radius of the wafer; (d) calculating a desired radial heating profile; and (e) defining a processing recipe for the liquid chemical dispensing apparatus that incorporates the desired radial heating profile.

4. The method of claim 3 , wherein in step (a), the baseline temperature is maintained by the main heater.

5. The method of claim 3 , wherein the step (a) comprises measuring the amount of wafer material etched from the first wafer sample by conducting a physical analysis of the first wafer sample.

6. The method of claim 3 , wherein the step (b) comprises etching additional wafer samples at a plurality of different temperatures using the liquid dispensing apparatus, wherein the plurality of different temperatures are higher than the baseline temperature.

7. The method of claim 3 , wherein the step (b) comprises measuring the amount of wafer material etched from the first wafer sample by conducting a physical analysis of the first wafer sample.

8. The method of claim 3 , wherein the step (c) is conducted using the baseline radial etching rate profile.

9. The method of claim 3 , further comprising the steps of (f) processing one or more additional wafer samples using the processing recipe and collecting a second radial etching rate profile as a feedback data; and (g) fine tuning the processing recipe using the feedback data.

10. The method of claim 9 , further comprising repeating the steps (f) and (g) in order to further fine tune the processing recipe.